Accurate mapping of species distributions is a fundamental goal of modern biogeography, both for basic and applied purposes. This is commonly done by plotting known species occurrences, expert-drawn range maps or geographical estimations derived from species distribution models. However, all three kinds of maps are implicitly subject to uncertainty, due to the quality and bias of raw distributional data, the process of map building, and the dynamic nature of species distributions themselves. Here we review the main sources of uncertainty suggesting a code of good practices in order to minimize their effects. Specifically, we claim that uncertainty should be always explicitly taken into account and we propose the creation of maps of ignoranc...
Anticipating species distributions in space and time is necessary for effective biodiversity conserv...
Tools for exploring and communicating the impact of uncertainty on spatial prediction are urgently n...
Aim Species Distribution Models (SDM) can be used to predict the location of unknown populations fro...
Accurate mapping of species distributions is a fundamental goal of modern biogeography, both for bas...
Accurate mapping of species distributions is a fundamental goal of modern biogeography, both for bas...
Species distribution models (SDMs) are subject to many sources of uncertainty, lim-iting their ap...
In ecology, a number of studies have dealt with the prediction of species diversity over space and ...
none6siPredicting the geographical distribution of a species is a central topic in ecology, conserva...
for uncertainty when mapping species distributions: The need for maps of ignorance Duccio Rocchini
Predicting the geographical distribution of a species is a central topic in ecology, conservation an...
Many geospatial tools have been advocated in spatial ecology and biogeography to estimate biodiversi...
There are many techniques to deal with uncertainty when modeling data. However, there are many forms...
Open-access biodiversity databases including mainly citizen science data make temporally and spatial...
Monitoring progress towards global goals and biodiversity targets require reliable descriptions of s...
Anticipating species distributions in space and time is necessary for effective biodiversity conserv...
Tools for exploring and communicating the impact of uncertainty on spatial prediction are urgently n...
Aim Species Distribution Models (SDM) can be used to predict the location of unknown populations fro...
Accurate mapping of species distributions is a fundamental goal of modern biogeography, both for bas...
Accurate mapping of species distributions is a fundamental goal of modern biogeography, both for bas...
Species distribution models (SDMs) are subject to many sources of uncertainty, lim-iting their ap...
In ecology, a number of studies have dealt with the prediction of species diversity over space and ...
none6siPredicting the geographical distribution of a species is a central topic in ecology, conserva...
for uncertainty when mapping species distributions: The need for maps of ignorance Duccio Rocchini
Predicting the geographical distribution of a species is a central topic in ecology, conservation an...
Many geospatial tools have been advocated in spatial ecology and biogeography to estimate biodiversi...
There are many techniques to deal with uncertainty when modeling data. However, there are many forms...
Open-access biodiversity databases including mainly citizen science data make temporally and spatial...
Monitoring progress towards global goals and biodiversity targets require reliable descriptions of s...
Anticipating species distributions in space and time is necessary for effective biodiversity conserv...
Tools for exploring and communicating the impact of uncertainty on spatial prediction are urgently n...
Aim Species Distribution Models (SDM) can be used to predict the location of unknown populations fro...